Abstract
Marine ecosystems are continuously subjected to anthropogenic environmental pollution. Understanding the spread of pollution and the potential risks it poses to deep-sea ecosystems is important for developing better conservation measures. Here, we identified non-negligible levels of persistent organic pollutants in deep-sea chemosynthetic bivalves with limited or no filter feeding. The bivalves were collected from two sites: one located near a highly populated region and the other located relatively far from human activity. Analyses of samples collected nearly every decade in a period of 30 years suggested that environmental policy restrictions might be effective in reducing chemical pollution. However, the detection of contamination in deep-sea chemosynthetic animals suggests that the pollution could be spreading globally to chemosynthetic organisms with limited or no feeding. To protect these highly endemic and vulnerable deep-sea chemosynthetic ecosystems, our findings indicate that further research on chemical contamination and its effects on these ecosystems is required.
Highlights
Some organic compounds are resistant to environmental degradation and can accumulate in organisms, causing harmful effects
There were no statistical differences between the mean Polychlorinated biphenyls (PCBs) of the Phreagena clams and B. septemdierum collected in 2019
This study has suggested that environmental policy restrictions might be effective in reducing chemical pollution
Summary
Some organic compounds are resistant to environmental degradation and can accumulate in organisms, causing harmful effects. Polybrominated diphenyl ethers (PBDEs), which are brominated aromatic hydrocarbons heavily used as flameretardants in plastics, possess structural variations similar to PCBs (Talsness, 2008) Due to their persistence in the human body, tetra-, penta-, hexa-, and hepta-BDEs were listed in the Stockholm Convention in 2009. Deca-BDE was listed in the Stockholm Convention in 2017 and was banned from import and use in Japan in 2018. Regardless of these efforts, environmental pollution caused by these substances continues to be detected in a wide range of biota collected worldwide (Domingo and Bocio, 2007; Lee and Kim, 2015)
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